Rotary car dumper



0d. 21, 1930. LEN 1,778,821

ROTARY CAR BUMPER Filed July 5, 1928 5 Sheets-Sheet 1 Z:ITIIIIIIII It:

QM W rneys Filed July 5, 1928 5 Sheets-She et 2 Infant 5F I H m \WN hm QB g f l I; l 11 n .F R Q 0 wm 0 lr'l M II \i|l 6 ,F h 9 Q m i ma R (kt. 21, 1930. A. ALLEN ROTARY CAR BUMPER PM July 5, 1928 5 Sheets-Sheet 4 Ammmzzzm Oct. 21, A. ALLEN ROTARY CAR BUMPER Filed July 5, 1928 5 Sheets-Sheet 5 Imfen or Andrew Alien atented oer-21,1930 a J p 1 773 831 Annnnws siren, or etnncon, ILLINQIS, AssIenoa'ro Ariana GARciA comrnnv,

- or GHICAGO,'ILLII\TOIS, A CORPORATION or ILLINOIS v I V ROTARY am DUMPER.

Application filed Julyfi, 1928, Serial no. 290,412. This inventionrelates to an improved rois geared thereto soas to rotate synchrotary car dumper, and moreparticularly to nously therewith.

an apparatus in which an open top car with Another object is to provide an improved solid sides and ends is rotated uponfa hori-v yieldable cage stop wherebycthe cagewhen 5 Zontal axis parallel with 1 the supporting manually released can'make one complete 5-5;

I 25 provide an improved apparatus of this type I car within the-cage automatically.

track-in such a manner as to discharge its rotation and then will be yieldingly halted lading or contents into a hopper or other in normal upright position. i

container disposed beneath the dumper. Another object is to provide a single means 1 The. invention relates particularly to-a for. releasing the cagefrom the stops and 19 dumping apparatus ofthe type in which a simultaneously starting the cage-rotating to continuous train of loaded cars is moved by means. L l successive stages through a rotary cylindrical Another object is to provide improved dumper containing a section of the track. As shields for deflecting material which might each car comes within the dumper, the train otherwise spill out of the ends of the cage,

;is halted, the car secured within the rotary back into the, receivingihopper. i 6a cage, and the cage is given one complete-ro- Another object is to provide improved Sta-i tation, whereby the contents of-the car is tionary shields, carried by the non-rotary spilled into a hopper and the car returned to track sections at the respective ends of the itsnormal upright position. The caris then cage, which cooperate with the end deflectors 20 unlocked and the train moves on until anot-the cage to direct material back into the 70:

other car is located within the cylindrical hopper. I I dumper, when the dumping process-is re- Another object is to provideacaige adapted peated. to receive either of two types of standard The generalobject of this invention is to cars, and alternativelylock either type of s which will operate smoothly and regularly Another object: is to provide improved by means of automatic control, so that normeans for automatically locking each car in 1 mally only onemanual operation is required position within the cage, and for automatito start the rotation of the dumper which cally releasing the car looks after the dump- Y will then perform its cycle without further ing operation has been completed. s v, 86 attention from the operator. The dumper ,Another object is to provide amovable can, however, be stopped at any point in the spill shield on the'cag'e which is moved into cycle of operation and then returned to norand out of operative position automatically, mal position. i along with'the car-lockingmeans. I I

Another objectis to provide a rotatable Other objects and advantages of this incage of improved construction, involving vention'will be more apparent from the folstrength and simplicity and so designed that lowing detailed description of'oneapprove d' I r all wearing parts can be easily repaired or form of'the apparatus,

renewed without. entirely dis-assembling the In the accompanying-drawingsf 40 frame, and so designed that the friction of I Fig, 1 is a longitudinal vertical section the dumper, when turning, shall be assmall th o gh th apparatus v x .as possible. f v a Fig. 2v '5 a plan view, on a somewhat small- Another object is to provide improved er scale, partially broken away; a

means 'for supporting the cage for rotation Fig. 3 is a vertical section, taken substan-' aboutits axis, whereby frictional loss is min tially on the line 33 of Fig. 1, showing the 95 imized. a I Y I positionv of the parts before the car has been Another object is to provide 1 improved moved into the cage. 1 i

means for rotating: the cage, in combination 1 Fig. 4: is a viewsimilar to Fig. 3,butshow-i with an automatic controller for same, which I ing the car locking means. engagement i set, connected direct y;with,the age.ib ite iththecar,i

Fig. is an end view of the apparatus, looking substantially from the line '55 of Fig. 1.

The cage 1' is in the form of a cylindrical drum positioned horizontally to rotate about its longitudinal axis above a hopper, themouth of-which is indicated at 2. The cage 1 is built up ofmetal plates and angle sec- III) tions so as toform a substantially closed drum, except for a central longitudinal passage 3*therethrough which receives the car to be dumped, and an'upper spill-opening l,

throughwhich the contents of the. car is;

dumped when the cage is inverted so'mewhat less than the lowerhalf of the drumjis divided into three separated compartments 9, 10,'and 11, by the transverseend partitions 5 and 6, and the intermediate partitions 7 and 8. Supported by the transverse angles 12 at r the tops of theseveral partitions5, 6, 7 and 8, 2e

are longitudinally extending angle beams 13 which carry the rails 14:, which extend from end toend of the cage parallel with its axisof rotation", that is from the end partition 5 tothe end partition 6; Extending up from I the transverse partitions at either side of the car-receiving passage 3, are parallel vert1cal closed by arcuate plates. Thesmaller upper part of the drum from wall. 17 to wall18 at the top is opened'to provide the spill opening 4, and at the ends of thecage, beyond the ends of the opening l, the circumferential sur face of the drum is completed, as indicated at 19 and 20, by means of arcuate plates and suitable strengthening members." Complete annular shields 21. and 22 (hereinafter described more in detail) extend outwardly beyond the respective ends of the cage proper, substantially as continuatio-ns of the outer cylindricalcasing of the cage. Openings 23 (seeFig; 2) are formedin the outer casing of theldrum, leading to the compartments 9, 10

n 80 h Co l Other t i l Whi h "tact with outside objects and dangerous, since may spill between the tracks or'otherwise out when'the-cage is inverted.

. fall into theinterior of the drum may drain Circular supporting tracks 24 are secured circumferentially about the periphery of the "'cageiadj acent its ends, preferably-in line with the end partitions 5 and 6.. Annular drivlng racks-25 are also secured toithe cage adjacent its ends,.as -here shown the racks 25 be V brackets 28. In former dumpers ofthis type,-

ing mounted on flanges 26 at. the outer sides of thesupporting rails 24.- .The rails 2 1 rest on--supporting rollers-27 carried by suitable it-has'been tliought'necessary to set the supporting trunnio-ns'forthese'rollers on radial lines at; approximately 45 with the-verticalfully v adjustment.

on eachside of the axis of the druinor cage. I have'discovered that substantially halfof. this angle is suflicient to .providestabllity and the result is-that instead of a trunnion load of 1.4114 times the weight of the car andf la ding, I-havea trunnion load'of only 1.08, which decreases proportionately the power required to revolve the dumper. In order to prevent apossible tilting of the dumper on its supports, which might"throw thedrivinggears (hereinafter described) out of mesh, a pair of idler rollers. 29 are provided which engage the supporting rails 24- adja-' racks 25 on the cage. A pinion 36 secured on shaft 31 drives a gear 37 onthe shaft 38 of an automatic controller 39 which governs the driving motor33. The'gear ratio is such that shaft 38 of the controller will make oneicom plete revolution for each revolution of the cage 1, so that the controller will always rotate in complete synchronism with thecage. The controller 39 is of the type embodying a plurality of rotating cams and" cooperating con tact members whereby, after the first ele'etrical contact has been'made', the contacts in the controller will "automatically accelerate the cage rapidly to its maximum speed, then decelerate' it to a very low speed and finally cut off the power just before the cage completes its revolution and drifts into thelatch mechanism, hereinafter described. Automatic electric controllers of-this type arewell known,l and it hasnot been deemed necessary to describe or show same in detail. However, devices of this k1nd haveformerly been devised which depend on'contacts made by points on the cage itself. These devices are defective, in

that the apparatus is subject to inj ury by conit cannot be entirely protected. According to the present invention, the driving mechanism isgeared positively to the cage through spur gearing and the controller is also geared j to a secondarycounter shaft in such manner that it will always rotate in complete synchronism with the cage. InIthis manner the controller may be so positioned that it will be protected, and readily accessible for Mounted adjacent eachend of the cage is a vertical standard 40 (see Figs. 1, 2 and 5), in

which isslidable a carriage 41, positioned betweentwoheavy compression springs 42 and so that the carriage is yieldable vertically in either direction, but will normally be held c When thelug is engaged'between the latches 44 and/l5, the cage 'is locked in its normal up-f right position. The upper latch 44 is pivoted intermediately at 47 tocarriage 41, and has a short upper arm 48 adapted toengage a fixedstop 49 'so as to limit theoutward movement of the lower arm of the latchwhich engages the lug 46. A third arm 50 on the latchmember is pivotally connected with a rod 51 which extends up throughsa spring 52 which acts to normally hold the latch 44 yieldably in the positionshown in the drawings. However, when'the cage 1 is rotated clockwise, (Fig. 5) the lug 46' on the cage willdepress- 29 the latch 44against' the action of spring 52' until the lug 46 reaches the position shown in the drawings, at which time the latch 44 will springback in engagement withthe upper face of the lug. The lower latch member 45 is pivoted intermediately at 53 and has a lower arm'54 adapted to engage afixe'dstop 55' tohold the latch in the locking-position shown, Arm 54 has a pin and slot connection 56 with a'crank arm 57 extending upwardly from a I 80 rock shaft58 which extends longitudinally parallel with the axis of the cage It is to be understood that all of thelatch mechanism so far described is duplicated at each end of the cage. A manually operable lever'59 is secured-to one end of rock shaft 58, so that by moving this'lever in a counter-clockwisedirection (Fig. the lower'latch members45 will be swung inwardly'out of engagement with the lugs 46 so that the cage is released for rotation in a clockwise direction. Acam lug 60 on the lever59 is adapted to engage-a starting switch 61 of any approved type, when the lever is swung-inthe direction to release the latches 45, this switch 61-serving to complete the first electrical contact for controller 39 to initiate the cycle of rotatingmovements of the cage 1. After the rotation of thecage has commenced, the manually operable lever'59 is moved back to the normal position shown in the drawings and afterthe cage has com pleted one revolution the lugs 46 will snap into place between the latches 44 and'45 so as to'lock the cage in normaljupright position.-

Of course the controller 39 will stop the motor'33 at this timeso that; power isno; longer being applied'to the i cage to rotate -same.

Since the entire latch assembly is'fioating be- I tween the compression spr1ngs'42 and" 43, it

can yield to some extent in either direction to fi -cushion the shock of stopping the cage. I

It will be understood that the 'electric'con; trolling connections for motor 33 include a cut-out switch and reversing-mechanism (not here shown) so that the" rotation of carriage 1 can; ifnecessaryabe stopped'at anypomt 111- -.tion, in an obvious manner.

its rotation; and reversed to bring-thefcage back to its'normal upright position. In such case, the lower latches 45 will yield inwardly to permit thelugs 46 to, return to locking posi- The stationary tracks 62 and'6, 3 leadingtO and from the cage projectiihto the annular end shieldsi2l' and 22 so as tomeetthe re'spec-v' tive ends, of tracks -l4-int-he cage; These inwardly projecting endsot tracks 62 and 63 are,

carried by cantilever I-beams- .64 securedto fixed anchorages 65. It will be understood 7 that ,a'continuous train of carsjoined by swivel connections are moved through this 1 apparatus, so that when one caris carried by the cagel and rotatedto dump its contents,

the immediately adjacent cars will remain stationary on the fixed trackways 62 and 68.

In order to prevent the coal or other ma terial from spilling out of the ends'of the cage 1 during the dumping operation, the an-' nular end shields 21 and 22, hereinabove reierred to,.are provided, these shields project 111g outwardly around the ends of the fixed tracks 62 and 63. These shields can be'extended without difliculty :far enough to ene velop'the ends of the next: cars at each end of the dumper, and will catch perfectly all lading that may fall over the endofthe car or may be crowded'off during rotation of the dumper. Each of the cylindrical shields 21 and 22 is finished at the outer end by an in wardly extending annular ring or flange 66, the outside diameter of which is the diameter. V

of the cage, and the inner diameter ofwhich may be the least diameter that will clear the car and its lading. A substantially semicircular: shield. 67 is hung from the beams 64 which support the fixedrails 62 and 63.v

at each end of the cage, this stationaryshield I 67 pro ecting downwardly inside of the an-fi nular'endring or flange 66,so that no lad-F ing falling throughbetween-the fixed rails; I

adjacent'the ends otthe cage can escape be- "j 22.. Withinthe upperfiportionof each shield 1 21'and 22 isa radially e'xtendingdeflector ing caught by the cylindrical shields 2'1'and 68 extending'diagonally from the outer ring 66 inwardly toward the spill opening '4, so" i that asthe'cage revolves the material caught within" the cylindrical shields 21-and '22 will be directed inwardly by the deflectors 68 and dumped through opening 4 into thehopper 2. It will be noted that the portions 19fa'nd V 20 of the cageyand the deflectorsi68, extend rails24 and rollers 2Zsothat thesewheel's or rollers and their :b'earings willflbe protected fromiallinglading: -The moutlrof hopper 2 need not be materially'wider thanthe spill opening 4, and since this hopper is located between the supporting rollers .27the sides of theho'pper serve as an additional means 'for protecting the'rollers from injury by the falling *lalsing *Gounter-weights 69 are po 2a sulficient 'distan-ceinslde of the support1ng-v car now in use. One of these cars, as shown 5 in Fig. 5', has awidth suficient to substantially fill the passage 3 between the-sidewalls l5 and 16. Car-holding angles are secured to the-side walls 15 and 16, and angle brackets 71 secured to the respective sidesofthe car engage under the fixed angles 70 as the 7 car moves. into the cage: These inter-engag ing angles will support the car in an obvious manner during the rotation of the cage. It will be apparent that the spill shields 17 and 18 built inthe cage extend radially substan tially from the opposite side edges of the upper open side of thecar so that substantially all of the mater'ial held within the car will be directed outwardly through opening i the dumper .is rotate Another standard type of car is illustrated in Fig. 4, this car being much narrower than the passage 3. For cooperation with this type of-car, pivotedcar stops'or horns are .provi'ded to swing up and engage-over the wheels 72 of the car, thus holding the car down against the supporting rails 14. Means Sis provided to automatically engage these horns with the wheels as thecar moves into.

position within the cage, and to release the hornsafter the dumping operation has been completed. There are two independently op-- 'ei'able' sets of horns 73 and 74, the horns 7 3 being adapted to engage the front wheels of the car as it moves into position within the cage, and the horns 7tsubsequently engag ing the rear wheels after the car has been .tstopped against the front horns 7 3. Substan-f tially identical means is provided for automatically movin'geach set ofhorns 73 and 74:

to locking position. The mechanism is shown 1 in side elevationin Fig. 1, and Fig. 4: shows I Jthe horns in locking position. In Fig. 3 both set-sot horns-are shown locked in released position, but the horns "T3 are shown in dotted lines after; they have been moved to locking position. Each set of'horns, (for example the. horns '74), are mounted at their lower ends on shafts 75, which are mounted for rockingmovement 1nthe cage structure. Crank arms/76 secured to shafts are connected through links 77 with the oppositely projecting lever arms 78 and79 of a rocker member centrally pivoted at 80 on a fixed bracket81. An upper arm-82 of the rockermember is pivoted at 83 to a rod or link 84 which projects througha compression spring 8 5, so, mounted as 'tonormally move the 'rockerniemberto the position shown in Fig; 7

4, whereby through the link mechanism above described, the horns 714 will be swung up-' wardlyinto locking position abo'utithe rear s wheels 72. 7 It will be understoodthatan exactly similar set of levers and operating [mechanismsis provided f or thehorns 73, so

that each set of. horns may be independently of its spring 85." .7

Each rocker member comprises a downwardly" extending icranki arm 86, from. one side of the lower end'of which projects a pin moved to locking positionby the expansion or stud 87'] Arrock shaft 88 extendslongi-- 'tudinally near one-side of cage A crank arm 89 extending downwardly from shaft 88 pivotally supports one end of a latch bar 90,

the opposite end of bar 90*being pivotedat tends slidably upward through a bearing 93,

.91 to the lower end of'a rod 92 which -exa spring; 94," surrounding the rod 92 and normallyytending to force the latch bar downwardly. The central portion of bar 90 is" enlarged, .as indicated at 95, and-a rather long vertical slot 96 in this portion-of the bar receives the pin 87 on the arm 86 of the rocker.

member which actuates the horns .74. A cam lug 97 formed on-the' bottom of bar 90 is adapted to engage behind a fixed stop 98 in the cage frame, as shown in Fig.3 3, and thus holds the rocker in this position against the 7 force of spri ng85, with the horns 74L in released position, as shown in Fig. 3. Averti-q calrod 99 has a l'u'g' 'l'00 at its lower end ex-' tending under the arm 90. The upper end of'rod 99 is pivoted at 101 to one arm 102 of a bell-crankpivoted at 103 in the cage frame,-the other arm 104 0f the bell-crank projecting upwardly into the pathof a lug orcam 105 carried by the car. V.

A second latch bar 106 (see dotted lines Fig. 3) is formed with a slot 107 adapted to 1 receive the stud 87 on the. rocker member which operates the other pairfof horns 7 3. Latch bar 106 is mounted parallel with the bar 90 but spaced laterally thereform, as indicated in Fig.1, and is connected at one end 1 with the rock shaft 88 by alcrankiarm simidown at its other end by a spring pressed rod similar to the rod 92. jThe latch bar 106 has no cam lug similar to 'the ,lug 97 i on bar 90,] and the slot '107 1 in bar 106 is much shorter than-the slot 96 in the bar '90, so that when-thelatch bar 106 is raised, the slot 107 may be completely released-from the stud 87 on the rocker meme 7 berg -As shown'inFig. 3 in dotted lines, the

lar to the arm 89, and is yieldably forced latch bar l06 has. been raised to disengage the lug 87 and the rocker mechanism which actuates the horns 7 3 has beenswungcounter- "clockwisebyits spring 85 to bring the horns 7 3 into locking engagement with the car wheels, as indicated in dotted lines.

cal od- 1 2 haw lug r 0 a ts we A verti 'e'ndadapted to engage beneath the latch bar 106 to raise san'ie and' release the'bar fromstud 87. The upper end of rod 109 is pivoted to one arm 1 11 of. a bell-crank pivoted at 112, the otherarm 113 of the bell-crank being connected by'link'114 with the lower farm-of a bell-crank 115 pivoted at" 116 in the'cage frame. The upper arm 117 jot th'e bell-crank projects up into the path of the "1ug 105"on the car. V V

" A crank arm 118 extendinggupwardly from "rock'shaft88is connected by link 119 with fthe shaft 120 of a releasing roller 121. Shaft 120 is also supported by links 122 pivoted at Y their upper ends 123 in the cage frame.

When the horns are in released' position, as

indicated in solid lines in Fig. 3, the roller '121 will be in "the position shown in that figure; When the-horns are'moved to locking Q engagement with the wheels 72 of the car,

the r0ller'121 will be projected outwardly through. ai suitable opening ins'the casing of the: cage, to the position shown in Fig. 1. As the cage 1 approaches the end ofits rotation, roller 121 will engage'the fixed cam 124 "mounted adjacent the cage, and will be again pushed into the position shown in Fig. 3 to return-the horns to their unlocked" positions.

" In describing the operation of this car 1 loclii'ngmechanism, we will first assume that the parts are all in the released positions indicated in solid lines in Fig. 3.' As-a car moves into the cage,' the cam or lug 105, positioned beneaththecar, will first engage the 'le'ver arm 117 ,jwhichthrough the'link and ,"lever connections previously described, will "elevate the lumbar-106 torelease the pin 87-onth'e rocker-which actuates the horns 73.

The corresponding spring' '85''will now ex pand to swing the horns '73 upwardly to the dotted line position indicated in 'Fig. As *the 'forward' wheels '72 of the can'move forward into engagement with horns .73, the cam "105 will engage the second lever arm'104, thus liftingthe other -latch4bar-90 so as to release the locking h1g9? ftrom'the fixed stop 98. During this movement, the stud .87 on the "928. The other'i spri'n'g will now swing counter-clockwise the operating mechanism 5,5101 horns 74, thus'swi'nging these horns'up into engagement with'the rear wheels 7 2 on T'the car. Since studj87-remains in eng agement with slot 96 in latch'bar 90, this bar will be'drawntoward the right in unison -"with the rocker member, thus swinging the ro'ck shaft 88 and projeoting roller 121ito the pos'ition shown in the same time,

matter-106 will be movedto the right in 'erati've ositien; all previously described. -It-wi11 be unders'too'd that; the angles -70 and 'uniso'n withla 'teh bar 90, until the slot 107 ofi' 'in this bar is again moved -intoengagement memher,

sitioniwith stud s7 'oii the" corresponding mo e by the expansion "of spring 941. The car-is now locked firmly in position by engagement of the horns 7 3 and 741 with i the respective wheels "of the car. i

As the revolution: oiithe cage is completed,

"rollerg21'will'engage the fixed cam .1241 and he pushed back into the'cageso astoswing rock shaft v88 in aclockwise direction. "This will draw lobth'latch bars and106toward the left, so 'as to release hothj sets of horns 7-3' and 74-against the. resistance of the springs I all of the i It will noted'that with the narrower. type "of car shownin Fig. 4, thefixed spill shield 18 v in the cage (108811013 exend intoa's close en- 'gagement with the adjacent side 'of' 'the car v as it doeswith the. wider. car shown in Fig) 5.

against the side of the car and form an extension of shield 18 to prevent'thef'coal 'or other lading from spilling, down inside of Atjthe'completion of this movement the locking'lu'g 97 onbar 90 will snapgintoengage' ment with the fixed stop 98,"thus locking parts in their original released po "Accordingly, an auxiliary shield or; spill,- plate. 125 is pivoted at 126 along the lower edge of shield 18 so that it may be swungout 'the'cage. Thefree'edge "or shield 125 is 'on- 'nec-tedby a link 126? with the upper arm- 127 of a lever, 'intermediately: pivoted at 128 in" the cage; The lower arm*1*29 of'thisi lever is connected, through link 130, with ajcrank arm 131, secured to'rockfshaft88. It will be...

iapparent that when this rock shaft 588 is swung"counter olockwise, as the horns 4. mmoved to locking position, the lever connection ust described will swing shield-125"up'" t9 the. operative position showndn-Figf l. When the Y horns "are automatically released, shield. 2125 .will automatically be withdrawn to the inoperative position shown in; Figs; 3

and '5. When the larger type'ofcafi-indicated E'Fig. enters Y the cage, the car locking mechanism hereinabove descrihed'wlll not be operated since no lug']105 5for' operatingthe ;,1nechanisin, a train of loaded cars, joined by levers;104 andf117ds provided henea-th this car. i Consequently, the" auxiliary shield 125 i .will remain in inoperative position, as iridi suitable swivel couplings, "are drawn through 7 1 will be automatically moved-intgj engagespill shield *will-be moved 'up into opthe cage so. as tofsuccessively: bring each car into positionwithin the cage. "If the fcar is ofthe larger type, shown in Fig; 5, the angle jm'er'nherslll on the car willfmove'heneath the i angles "5Q in I the cage andiauto inatically' lock thecar in pes'ition: -11 the caris of the'smal'ler type shown in Fig. 4',-the lockinglholrns 73 and 'ment with the car wheels and theauz iili ary ioo the vertical'walls15 and 16 arecutawayas .inecessa'ry to per'mitthe -horns7 3 and '(tto swing to'and from their operative positions.

The operator now swings over the lever 59 to release the cage and close switch 61", thereby placing, automatic controller "89 in control of driving motor33. This automatically controlled driving mechanism will now cause one .fcompleterotation ofthe cage land the car carried'therebyi se as to dump the ladingfrom thecar; 'Material that is caught at this time,

or has been previously "caught within the endshields 21 and 22, will :be simultaneously is then repeated.

. It should be noted deflected into the hopperby theJanguIar deflectors' 68. fAnyinaterial that fallen into Qthe compartments 9, 10 and ll of the drum* will be discharged through openings 23..

After the car has completed its rotation, the lugs ldon .the cage will] drift into engagement with the yieldable latches 44 and 45 and once more lock the cage in its norinalupright position. At substantially thesametime, the

horns 7 3 and 7 l will be released from the car and the spill shield 125 will be swung down into inoperative position. The train is now moved forward so as to bring the succeeding car into-thecage anidlthe dumping operation i V j that this dumper is designed for operationfwith the longer cars,

that is the cars of.usual length, and that the described-operation with continuous. coupledtrips or trains of cars will ordinarily be poss ble only with these longer cars.

'someinstances shorter cars are used. and these 7 ears must be uncoupled from the train and I dumped separately else theadjacent cars will project into the dumper'during the dumping operation. .The hornsfengaging over the car;

wheels provide a means for'holding these detached shorter cars in position longitudinal .ly as well as holdin gthe carsfrom falling .outofthe cage during its rotatiom- I VV-hile a preferred formof cylindrical has been disclosed, it will'be apparent that onlythe tracks 24: and driving racks 25 need be-cireular or cylindricah'and the remainder of the cage mayfhave any other desired or convenient structural form. The cylindrical form here disclosed gives strength land V rigidity with a minimum of material *l/Vhile it is convenientlto form the end shields 21 and 22"as annular continuations of the cylindrical cage, this conformation is not at all-necessary. lhe' shields, may have a different cross-sectional configuration' Cy- Qlin drical. end shields are usuallybest adapt- ,edto perform the'specifiedfunctions, and

they: tend to stifi'en. the cage and lend strengthand rigidity thereto, particularly if the ends of the cage. 1

"2. In a car dumping apparatus, a rotary s ,ingfro'm the scope of. the invention as defined by the following claims. Q I claim: 1 H g 1. In a car dumping apparatus,arotary ca'ge, means for supporting a caritherein the .cage havlngla spill opening; above. the car whereby the centents of thecar may be dumped-from the cage when the cage is inverted, means positioned adjacent theends of the cage for supportingthe cage for r0- tation,;and annular shields projecting out- 'wardly'fro1n the ends of the cage for cat'ching'material that would otherwise spill from cage, means for supporting acar therein, the cage havlng a splll opening abovethe car whereby the contents of. ,;'t;he' car may be dumped from the cage whenthe cage is inverted, means positioned -;ac ljacentjthe ends of the cage ffor'supporting-thejcage for rotation, and annular shields projecting outwalrdly from the ends of thecageifor'catch jing material thatwould otherwisespill from the endsxof the cage, there being an annular flange projecting radi end of each shield. I

lly inward from 'the 3. In a car dumping apparatus;

I cage; means for supporting a car thereirnthe cage having a spillopenmg aboveithecar .whereby the contents of theacar may be dumped from the cagecwhen the cage is inl verted, means positioned adjacent the, ends of the cage for supporting thecagefor rotation, andannular shields projecting outwardlyjfromi the endsrofthe cage for catching ma- U terial that would; otherwise spill from the j endsof'the'cageand deflectingimeans mount-' ed within {the shieldsf-or directing material caught therein to the spill opening of the cage.

4L. Ina-car .dumping apparatus,"a rotary cage, means forjsupporting a car thereln, the

cage having .a' {spill opening above the car T whereby: the contents ofthe car may. b dumped from the cagewhen thecage is, in ve'rted-,.rneans positioned'iadjacentthe ends of the cage for supporting-the cage for r-o-' tationf'and annular shields projecting outwardly from the ends ofthe'cage forcatching material'that would otherwise spill from the ends of the cage; there beinglan annular flange projecting radially inwardfro n the endof Y each shield and; diagonally positioned deflectors in the shields extending from the annular flange. tof openings leadingto-the s'pill opening'of the-cage.: V

, 5. Ina car dumping. apparatus a rotary cage, a trackw'aymounted in the cage fromend to endrth'ereof, means. for holding a car :On: ;the: trackw'ay "stationary trackways V mounted "i111 alignment with (the 'tr'a'ckway in the cage; the cage; having a; spill op g abovethe car whereby the contents of the car m yb du p i r m t ge' he the e f nver d, mea s PQ it QQQd Q FllEl QA P ends ofthe cage for Supporting the cage for rotation, and annular shields projecting outwardly from the cage and surrounding the v ends of the stationarytracks, and means within the shields for deflecting material caught thereby into the spill opening ofthe cage.

6. In a car'dumping apparatus, a rotary cage, a trackway mounted in the cage from end toend thereof, means for holding a car on the trackway, stationary trackways mounted in alignment with the trackway in the cage, above the car whereby the contents of the car may be dumped from the cage when the cage is inverted, means positioned adjacent the s ends of the cage for supporting the cage for 7 rotation, and annular shields projecting outwardly from the cage and surrounding the ends of the stati0narytracks,there being an FPI annular fiange pro ecting radially inward from the end of each shield, and 'nonrotary substantially semi-cylindrical shields supported by the stationarytrackways and extending within the annular flanges of the shields on the cage. V

ANDREWS ALLEN.

the cage having a spill opening 

